Question

To give the soccer ball an acceleration of 8 m/s^2, what is the required force?

a) 3.44 N
b) 17.2 N
c) 1.44 N
d) 11.52 N

Answer 1

To give a soccer ball an acceleration of 8 m/s², you would need to apply a force of 3.44 N, assuming the ball's mass is typical for a size 5 soccer ball (0.43 kg).

Step-by-step explanation:

To find out the force required to give the soccer ball an acceleration of 8 m/s2, we would use Newton's second law of motion, which states that force equals mass times acceleration (F = m × a). However, the mass of the soccer ball is not given in the question. If we consider the mass of a typical soccer ball to be around 0.43 kg (which is the mass of a standard size 5 soccer ball), we can calculate the force as follows:

• F = m × a
• F = 0.43 kg × 8 m/s2
• F = 3.44 N

Therefore, the force required to accelerate the soccer ball at 8 m/s2 would be 3.44 N, which corresponds to option a).